Showing papers on "Graphene oxide paper published in 1976"
167 citations
IBM1
TL;DR: In this article, a new technology for the deposition and promotion of adherence of copper films to aluminum oxide substrates is presented, which makes use of a gradual change in structure and chemical bonding between the metal film and oxide substrate.
45 citations
Patent•
06 Sep 1976
TL;DR: In this paper, an oxide layer of a specified thickness and a desired shape in an arbitrary depth position was made by implating oxygen ions then heat-treating the substrate in an inert gas.
Abstract: PURPOSE:To make an oxide layer of a specified thickness and a desired shape in an arbitrary depth position by implating oxygen ions then heat-treating the substrate in an inert gas.
19 citations
Patent•
18 Mar 1976
TL;DR: In this paper, a process for producing a composite graphite material in a molded form having high density and tensile strength as well as impermeability, comprising the steps of mixing expanded graphite with oxidized graphite as the binder and compression molding the resulting mixture.
Abstract: A process for producing a composite graphite material in a molded form having high density and tensile strength as well as impermeability, comprising the steps of mixing expanded graphite material with oxidized graphite material as the binder and compression molding the resulting mixture. In one embodiment, this invention relates to the composite graphite material produced by said process.
13 citations
Patent•
05 Mar 1976TL;DR: An electrolyte capacitor and method with the capacitor having an anode coated with a dielectric oxide layer and a cathode consisting of a semiconductive metal oxide was proposed in this article.
Abstract: An electrolyte capacitor and method with the capacitor having an anode coated with a dielectric oxide layer and a cathode consisting of a semiconductive metal oxide. A graphite layer is formed on the cathode and an additional semiconductive metal oxide is disposed on the cathode in and between the graphite particles forming the graphite layer.